Network Access Method and Mobile Terminal

ABSTRACT

Provided is a network access method and the method includes the follows. Information of a target user identification card inserted into a mobile terminal is detected so as to determine whether the target user identification card is a new card inserted into the mobile phone for the first time. If the target user identification card is the new card, on the basis of the type of the target user identification card, all network types supported by the target user identification card is determined, and network identities of PLMNs of all network types are determined and added to an equivalent home public land mobile network (EHPLMN) list. When the mobile terminal arrives at a new visited place and starts a network search, if a target PLMN that matches at least one network identity in the EHPLMN list is searched, a communication connection between the mobile terminal and the target PLMN is established.

CROSS-REFERENCE TO RELATED APPLICATION(S)

This application is a continuation-in-part of international applicationNo. PCT/CN2016/086235, filed on Jun. 17, 2016, which claims the benefitof priority to Chinese Patent Application No. 201510346852.0, filed onJun. 19, 2015, the contents of both of which are herein incorporated byreference in their entireties.

TECHNICAL FIELD

The present disclosure relates to the field of mobile communication, andparticularly to a network access method and a mobile terminal.

BACKGROUND

Public Land Mobile Network (PLMN) is a network established and operatedby governments and approved operators for providing the public with landmobile communication business. The PLMN is generally interconnected witha public switched telephone network to form a communication network ofthe whole region or country.

Generally, the identity (“ID” for short) of the PLMN is a string ofnumbers, for example, the network identity of the PLMN of China Mobileis 46000, and the network identity of the PLMN of China Unicom is 46001.Users can communicate with each other conveniently and quickly viamobile networks provided by various operators. With an improvement ofpeople's living standard, there are more and more users who carryingcommunication terminal equipment. When a user arrives at a visited placethat is not the home of a card of a mobile terminal such as a mobilephone, or when a user with a mobile phone with a new card arrives at avisited place that is not the home of the new card, the mobile phoneneeds to search a network to obtain the network identity of the PLMN.

However, in the related art, when searching a network, the mobile phoneneeds to keep searching and attempts to connect to a searched network.The mobile phone cannot make network access until a network typesupported by the mobile phone is found after continuous attempt and ittakes a long time to connect to a network; a continuous networkconnection attempt of the mobile phone can result in large powerconsumption and poor user communication experience.

BRIEF DESCRIPTION OF THE DRAWINGS

In order to more clearly illustrate the technical solutions of theimplementations of the present disclosure, the drawings used in thedescription of the implementations will be briefly described, it will beapparent that the drawings described in the following areimplementations of the present disclosure, and it will be apparent tothose skilled in the art that other drawings may be obtained from thedrawings without any creative efforts.

FIG. 1 is a flow diagram illustrating a network access method of animplementation of the present disclosure.

FIG. 2 is a flow diagram illustrating another network access method ofan implementation of the present disclosure.

FIG. 3 is a structure diagram illustrating a mobile terminal of animplementation of the present disclosure.

FIG. 4 is a structure diagram illustrating another mobile terminal of animplementation of the present disclosure.

FIG. 5 is a structure diagram illustrating another mobile terminal of animplementation of the present disclosure.

DETAILED DESCRIPTION

Technical solutions of the present disclosure will be described clearlyand completely with reference to the accompanying drawings; obviously,implementations described below are merely part of rather than all ofthe implementations of the present disclosure. Based on theimplementations of the present disclosure, other implementationsobtained there from without any creative work by those of ordinary skillin the art shall fall into the protection scope of the presentdisclosure.

Implementations of the present disclosure provides a network accessmethod and a mobile terminal, which can reduce the length of time thatthe mobile terminal takes to connect to a Public Land Mobile Network(PLMN) and enhance user communication experience on the mobile terminal.

In the network access method of the implementation of the presentdisclosure, perform network ID match before network connection. If atarget user identification card inserted into a mobile terminal is a newcard which is inserted into the mobile phone for the first time, thenetwork type supported by the target user identification card can bedetermined according to the type of the card; thereafter, the network IDof the PLMN of the network type can be determined according to thenetwork type supported by the target user identification card, and thenetwork ID of the PLMN of the network type can be added to an EHPLMNlist based on which network ID match can be carried out. If the networkID match is successful, a network connection will be conducted.

Please refer to FIG. 1; FIG. 1 is a flow diagram illustrating a networkaccess method of an implementation of the present disclosure. The methodillustrated in FIG. 1 is applicable to an intelligent mobile phone (suchas Android mobile phone, iSO mobile phone, and the like) and othermobile terminals. As illustrated in FIG. 1, the network access methodcan begin at block 101.

At block 101, information of a target user identification card insertedinto a mobile terminal is detected, so as to determine whether thetarget user identification card is a new card; in one implementation, soas to determine whether the target user identification card is includedin at least one user identification card pre-stored by the mobileterminal.

In some implementations, take mobile phones as an example of the mobileterminal for explanation. The user identification card described inimplementations of the present disclosure can be a subscriber identitymodule (SIM) card or a universal subscriber identity module (USIM) cardof a mobile phone. The information of the user identification cardincludes the operator of the SIM card (For example, China Mobile, ChinaUnicom, or China Telecom), network types supported by the SIM card (willbe described in detail later), or the subscriber of the SIM card (thatis, the user ID of the mobile phone user bonded with the SIM card).

During implementation, when the mobile phone user inserts a mobile phoneSIM card into the card slot of the mobile phone, the mobile phone canfirst detect whether the SIM card (that is, target user identificationcard, or target SIM card) inserted into the card slot of the mobilephone is a new card.

Specifically, the mobile phone can detect the information of the targetSIM card inserted into the mobile phone via a built-in cardidentification module, and match the information of the target SIM cardwith information of multiple SIM cards pre-stored by the mobile terminalso as to determine whether the target SIM card is one of the multipleSIM cards pre-stored by the mobile terminal. If the match is successful,it can be determined that the target SIM card is one of the multiple SIMcards pre-stored by the mobile terminal, that is, the target SIM card isa card that has been used on the mobile phone and is not a new card. Ifthe match is un-successful, it can be determined that the target SIMcard is not one of the multiple SIM cards pre-stored by the mobileterminal, that is, the target SIM card has not been used on the mobilephone and is a new card.

During implementation, the mobile phone can first obtains information ofone or more SIM cards pre-stored by the mobile phone from a built-instorage space (including a mobile phone build-in memory or an expandedstorage space such as a SD card of the mobile phone, and the like) or acloud storage space of the mobile phone (in the following, can becollectively referred to as “storage space”), where the one or more SIMcards are SIM cards that have been used on the mobile phone, and themobile phone can store information of each SIM card that has been usedin the above mentioned storage space. After the pre-stored informationof the one or more SIM cards has been obtained, the mobile phone canmatch information of the target SIM card with the pre-stored informationof the multiple SIM cards so as to judge whether the information of thetarget SIM card is one of the pre-stored information of the multiple SIMcards of the mobile phone.

At block 102, if the target user identification card is the new cardinserted into the mobile terminal for the first time, based on the typeof the target user identification card, all network types supported bythe target user identification card can be determined. In oneimplementation, if the target user identification card is not includedin the at least one user identification card pre-stored by the mobileterminal, the target user identification card will be deemed as a newcard.

In some implementations, if the information of the target SIM card isnot one of the pre-stored information of the multiple SIM cards, themobile phone can determine that the target SIM card is a new card, andprompt information that the target SIM card is a new card can be outputto a user operation interface of the mobile phone such that users of themobile phone can consult and determine whether the detection result isaccurate. During implementation, if the detection result is accurate,the mobile phone can determine all network types supported by itselfaccording to the type of the target SIM card, and can further establisha network search list corresponding to the target SIM card.

In some implementations, the network type described herein can include:CDMA (Code Division Multiple Access) 1×, 800 MHZ frequency band assignedfor mobile terminals in CDMA network standard; 900/1800/1900 MHZfrequency band assigned for mobile terminals in GSM (Global System forMobile Communication) network standard, and 900/1800 MHZ frequency bandassigned for GSM 1× dual-model (that is, WCDMA (Wideband Code DivisionMultiple Access)) in recent years; 900/1800/1900/2100 MHz frequency bandassigned for terminals in 3G (the third generation) mobile communicationtechnology network standard; and 1920-2170 MHZ frequency band assignedfor terminals in 4G mobile communication technology network standard;however, the present disclosure is not limited thereto.

At block 103, on the basis of the network types supported by the targetuser identification card, network IDs of public land mobile networks(PLMN) of all the network types described above can be determined andthen added to an equivalent home public land mobile network (EHPLMN)list.

In some implementations, after all network types supported by the SIMcard of the mobile phone have been determined, based on all the networktypes, the mobile phone can determine network IDs of PLMNs of all thenetwork types and add the network IDs of PLMNs of all the network typesto the EHPLMN list. That is, in implementations of the presentdisclosure, the mobile phone can predetermine network IDs of PLMNs ofmultiple network types supported by the mobile phone, and add thenetwork IDs of PLMNs of the multiple network types to the EHPLMN list aswell as save the EHPLMN list to the storage space. The EHPLMN list canbe used for network ID match when the mobile phone searching networksand the mobile phone can attempt to connect to a network after acorresponding network ID has been found; it is possible to reduce thelength of time consumed for network search and improve the efficiency ofnetwork connection.

In some implementations, the EHPLMN described herein is an equivalentPLMN of a PLMN currently selected by the mobile phone and has the samepriority. The EHPLMN is mainly used in conjunction with mobile phones tosolve “periodic network search of terminals, roaming signs appears, andfaster power consumption” and other issues caused by singlenetwork-dual-number or even single network-multi-number.

In some implementations, the network ID of the PLMN described herein caninclude network number segments. For example, China Mobile includes fournumber segments, that is, 46000, 46002, 46007, and 46008; China Unicornincludes three number segments, that is, 46001, 46006, 46009 and thelike and there is no limit. Specifically, when the network typessupported by the mobile phone have been determined, the mobile phone canadd network IDs of the PLMNs of the network types to the EHPLMN list.For example, if the SIM card of the mobile phone is a SIM card of ChinaMobile, it can be determined that the network supported by the mobilephone is a network of China Mobile, and therefore, network numbersegments of the network of China Mobile can be added to the EHPLMN list.

Operations of block 101-block 103 can be repeated for multiple timesaccording to actual needs and/or application scenarios.

At block 104, if a target PLMN that matches at least one network ID ofthe EHPLMN list is found during a network search, the mobile terminalcan establish a communication connection between the mobile terminal andthe target PLMN. In one implementation, when the mobile terminal arrivesat a new visited place, the mobile terminal can start the networksearch.

In some implementations, when a mobile phone arrives at a visited placefrom the home of the SIM card thereof or arrives at a new visited placefrom a visited place that has already established a network connectionand starts a network search, the mobile phone can acquire the network IDof a PLMN broadcasted by a base station. After obtains the network ID ofthe PLMN of the visited place via base station broadcast, the mobilephone can match the network ID of the PLMN obtained via scan withnetwork IDs of PLMNs in the EHPLMN list. When a PLMN (that is, thetarget PLMN) that matches at least one network ID of the EHPLMN list issearched (in other words, found), the mobile phone can establish acommunication connection with the target PLMN. That is, the mobile phonecan first match the network ID of the searched PLMN with network IDspre-stored in the EHPLMN list, and a network connection can beestablished after a successful match, there is no need to attemptcommunication connection for each searched PLMN as in the related art.Briefly, in the network access method of the implementation of thepresent disclosure, match before attempting a network connection, and itis possible to reduce wasted effort and improve the efficiency ofnetwork connection.

As can be seen from the implementations described above, a mobile phonecan acquire pre-stored information of SIM cards from a storage space andbased on the SIM card information acquired, the mobile phone candetermine whether the SIM card currently inserted into the mobile phoneis a new card, determine all network types supported by the SIM card,and determine, based on the above mentioned network type, the network IDof the PLMN of the network type supported by the SIM card. Besides, themobile phone can add the network ID of the PLMN of the network type intothe EHPLMN list and conduct network ID match according to the EHPLMNlist. Network connection will be conducted after a successful match andthere is no need to attempt network connection for each searchednetwork, and it is therefore possible to improve the efficiency ofnetwork search. When the mobile phone arrives at a visited place from adesignated location and starts a network search, the mobile phone canmatch the searched network ID with network IDs stored in the EHPLMNlist. If a target PLMN that matches at least one network ID in theEHPLMN list is searched, a communication connection between the mobilephone and the target PLMN can be established, in this way, it ispossible to reduce the length of time that the mobile phone takes toconnect to the PLMN and enhance user communication experience on themobile phone.

Please refer to FIG. 2; FIG. 2 is a flow diagram illustrating anothernetwork access method according to an implementation of the presentdisclosure. As illustrated in FIG. 2, the network access method canbegin at block 201.

At block 201, information of a target user identification card insertedinto a mobile terminal is detected, and whether or not the target useridentification card is included in at least one user identification cardpre-stored by the mobile terminal is judged.

During implementation, implementation of the process of determiningwhether a target SIM card inserted into a mobile phone is a new card canrefer to the description of block 101 of the first implementation, andit will not be repeated here.

At block 202, if the target user identification card is not included inthe at least one user identification card pre-stored by the mobileterminal, it can be determined that the target user identification cardis a new card inserted into the mobile terminal for the first time, andbased on the type of the target user identification card, all networktypes supported by the target user identification card can bedetermined.

During implementation, implementation of the process of determining allnetwork types supported by the target SIM card can refer to thedescription of block 102 of the first implementation, and it will not berepeated here.

At block 203, on the basis of the network types supported by the targetuser identification card, network IDs of public land mobile networks(PLMN) of all the network types described above can be determined andthen added to an equivalent home public land mobile network (EHPLMN)list.

During implementation, implementation of the process of adding thenetwork IDs of the PLMNs of all network types supported by a target SIMcard to an EHPLMN list can refer to the description of block 103 of thefirst implementation, and it will not be repeated here.

Further, in some implementations, after determining network IDs of thePLMN of all network types supported by the target SIM card, the mobilephone can add network IDs of the PLMNs of all network types supported bythe mobile phone to an EPLMN list; in this way, when the mobile phonearrives at a visited place and starts a network search, by searchingnetworks via the EPLMN list, it is possible to increase the diversity ofnetwork search and increase the fun of network search.

At block 204, when the mobile terminal arrives at a visited place from adesignated location and starts a network search, the mobile terminalmatches the network ID of a searched network with network IDs in theEPLMN list and the EHPLMN list, so as to find a target PLMN which canmatch at least one network ID in the EPLMN list or the EHPLMN list.

During implementation, implementation of the process of matching thenetwork ID of the searched network with network IDs in the EHPLMN listso as to find a target PLMN that matches at least one network ID in theEHPLMN list can refer to the description of block 104 of the firstimplementation, and it will not be repeated here.

Further, when a mobile phone arrives at a visited place and starts anetwork search, the mobile phone can match the network ID of thesearched network with network IDs in the EPLMN list and the EHPLMN listsimultaneously, so as to find a target PLMN that matches at least onenetwork ID in the EPLMN list or the EHPLMN list. During implementation,since the way in which information is stored in different lists (theEPLMN list and the EHPLMN list) may be different and search strategiesdefined by different lists are not the same, the search speed that themobile phone to search, from different lists (the EPLMN list and theEHPLMN list), a matched network ID of the network ID of the searchedPLMN varies depending on the network IDs of PLMNs; for example, if thenetwork ID that matches the network ID of the searched PLMN is differentin storage location, the match speed between the network ID of the PLMNand network IDs in the lists may varies. According to the implementationof the present disclosure, by simultaneously matching the network ID ofthe searched PLMN with the EHPLMN list and the EPLMN list respectively,it is possible to improve the match efficiency of the network ID of thePLMN, shorten the match time of the network ID, and improve theefficiency of network search.

By matching the network ID of the searched PLMN with the EHPLMN list andthe EPLMN list respectively, the mobile phone can obtain a network IDthat matches the network ID of the PLMN; after a target PLMN thatmatches at least one network ID stored in the EHPLMN list or the EPLMNlist is searched, a communication connection between the mobile phoneand the target PLMN can be established.

At block 205, a total length of time consumed by the mobile terminal tofind the target PLMN and establish the communication connection with thetarget PLMN is calculated; the total length of time is output to a useroperation interface of the mobile terminal as a length of time fornetwork access (in other words, the length of time for current networkaccess) for consulting by users of the mobile terminal.

In some implementations, after the communication connection with thetarget PLMN is established, the mobile phone can calculate a totallength of time consumed by the mobile phone to find the target PLMN andestablish the communication connection with the target PLMN, and furtheroutput the total length of time to a user operation interface of themobile terminal as a length of time for current network access forconsulting by users of the mobile phone. The user operation interface ofthe mobile phone can be a mobile phone display such as a touch screen;however, the present disclosure is not limited thereto. After viewingthe length of time for network access via the mobile phone display,users of the mobile phone can determine whether to feed back the lengthof time for network access, the visited place, and other information tothe operator management platform of the SIM card of the mobile phone. Ifthe mobile phone chooses to feed back the length of time for networkaccess, the visited place, and other information to the operatormanagement platform of the SIM card of the mobile phone, optimalmanagement of network access time can be performed via the operatormanagement platform of the SIM card of the mobile phone. Throughoptimization, the efficiency of mobile access of the mobile phone can beimproved continuously, and user experience of the mobile phone can beenhanced.

According to implementations of the present disclosure, a mobile phonecan first determine whether a target user identification card insertedthereto is a new card, and if YES, the mobile phone can determinenetwork types supported by itself according to the target useridentification card and determine, based on the network types supportedby the target user identification card, network IDs of PLMNs of theabove-mentioned network types; thereafter, network IDs of PLMNs of theabove-mentioned network types can be added into an EHPLMN list and anEPLMN list so as to conduct network ID match according to the EHPLMNlist and the EPLMN list. Network connection can be performed after asuccessful match; since there is no need to attempt network connectionwith regard to each searched network, efficiency of network search canbe improved. When the mobile phone arrives at a visited place from adesignated location and starts a network search, the mobile phone canmatch the searched network ID with network IDs stored in the EHPLMN listand the EPLMN list. If a target PLMN that matches at least one networkID in the EHPLMN list or the EPLMN list is searched, a communicationconnection with the target PLMN is established; it is possible to reducethe length of time that the new user identification card of the mobilephone takes to connect to the PLMN and improve user communicationexperience of the mobile phone. According to implementations of thepresent disclosure, the length of time for network access can be fedback to an operator management platform of the SIM card of the mobilephone, and optimal management of network access time can be performedvia the operator management platform of the SIM card. Throughoptimization, the efficiency of mobile access of the mobile phone can beimproved continuously, and user experience of the mobile phone can beenhanced.

Please refer to FIG. 3; FIG. 3 is a structure diagram illustrating amobile terminal of an implementation of the present disclosure. Themobile terminal is used to perform the network access method of theimplementations of the present disclosure. As illustrated in FIG. 3, themobile terminal includes a detecting unit 50 (such as a detector), anacquiring unit 10 (such as a processor), an adding unit 20 (such as aprocessor), and a connecting unit 30 (such as a communicator orconnector and the like). As an implementation, referring to FIG. 5, themobile terminal can further include a hardware processor configured toperform the elements described above and other elements described below.The hardware processor can be connected to a memory via a BUS, andinvoke programs stored in the memory to perform the elements of themobile terminal of the present disclosure.

The detecting unit 50 is configured to detect information of a targetuser identification card inserted into the mobile terminal, so as todetermine whether the target user identification card is a new card thatinserted into the mobile terminal for the first time; for example, thedetecting unit 50 determine whether the target user identification cardis included in at least one user identification card pre-stored by themobile terminal.

The acquiring unit 10 is configured to acquire or determine, on thebasis of the type of the target user identification card, all networktypes supported by the target user identification card. The acquiringunit 10 is further configured to acquire or determine, on the basis ofthe network types supported by the target user identification card,network IDs of PLMNs of all the network types.

The adding unit 20 is configured to add the network IDs of the PLMNs ofall the network types supported by the mobile phone acquired by theacquiring unit 10 to an equivalent home public land mobile network(EHPLMN) list. Further, in some implementations, the adding unit 20 canadd network IDs of the PLMN of all network types to an EPLMN list; inthis way, when the mobile phone arrives at a visited place and starts anetwork search, by searching networks via the EPLMN list and/or theEHPLMN list, it is possible to increase the diversity of network searchand improve the efficiency of network search.

The connecting unit 30 is configured to establish a communicationconnection between the mobile terminal and a target PLMN that matches atleast one network ID in the EHPLMN list if the target PLMN is foundduring a network search. For example, when the mobile terminal arrivesat a visited place from a designated location, the mobile terminal canstart the network search.

In some implementations, the detecting unit 50 is configured to: acquireinformation of the at least one user identification card pre-stored bythe mobile terminal from a build-in storage space of the mobile terminalor a cloud storage space; judge whether the information of the targetuser identification card belongs to the information of the at least oneuser identification card pre-stored in the build-in storage space of themobile terminal or the cloud storage space; and if YES, determine thatthe target user identification card is included in the at least one useridentification card pre-stored by the mobile terminal; otherwise,determine that the target user identification card is not included inthe at least one user identification card pre-stored by the mobileterminal.

The user identification card can be a subscriber identity module (SIM)card, and the information of the user identification card includes atleast one of: the operator of the SIM card, network types supported bythe SIM card, and the subscriber of the SIM card.

In some implementations, the adding unit 20 is further configured to addthe network IDs of the PLMNs of all the network types to an equivalentpublic land mobile network (EPLMN) list, so that networks can be foundby the mobile terminal.

The network ID can include a network number segment.

In some implementations, as illustrated in FIG. 4, the mobile terminalaccording to implementations of the present disclosure can furtherinclude a calculating unit 40, which is configured to calculate a totallength of time consumed by the mobile terminal to find the target PLMNand establish the communication connection with the target PLMN, andoutput the total length of time to a user operation interface of themobile terminal as a length of time for current network access forconsulting by users of the mobile terminal.

In some implementations, the mobile phone identification card describedherein can be a SIM card of a mobile phone. The information of the useridentification card can include: the operator of the SIM card (Forexample, China Mobile, China Unicom, or China Telecom), network typessupported by the SIM card, or the subscriber of the SIM card (that is,the user ID of the mobile phone user bonded with the SIM card).

During implementation, when the mobile phone user inserts a mobile phoneSIM card into the card slot of the mobile phone, the detecting unit 50can first detect whether the SIM card (that is, target useridentification card, or target SIM card) inserted into the card slot ofthe mobile phone is a new card. Specifically, the detecting unit 50 candetect the information of the target SIM card inserted into the mobilephone via a built-in card identification module, and match theinformation of the target SIM card with information of multiple SIMcards pre-stored by the mobile terminal so as to determine whether thetarget SIM card is one of the multiple SIM cards pre-stored by themobile terminal. If the detecting unit 50 judges that the target SIMcard is one of the multiple SIM cards pre-stored by the mobile phone,the detecting unit 50 can further determine that the target SIM card isa card that has been used on the mobile phone, that is, the target SIMcard is not a new card. If the detecting unit 50 judges that the targetSIM card is not one of the multiple SIM cards pre-stored by the mobilephone, the detecting unit 50 can further determine that the target SIMcard has not been used on the mobile phone and is a new card.

During implementation, the detecting unit 50 can first obtainsinformation of one or more SIM cards pre-stored by the mobile phone froma built-in storage space (including a mobile phone build-in memory or anexpanded storage space such as a SD card of the mobile phone, and thelike) or a cloud storage space of the mobile phone, where the one ormore SIM cards are SIM cards that have been used on the mobile phone,and the detecting unit 50 can store information of each SIM card thathas been used in the above mentioned storage space. After the pre-storedinformation of the one or more SIM cards has been obtained, thedetecting unit 50 can match information of the target SIM card with thepre-stored information of the multiple SIM cards so as to judge whetherthe information of the target SIM card is one of the pre-storedinformation of the multiple SIM cards of the mobile phone.

In some implementations, if the detecting unit 50 judges that theinformation of the target SIM card is not one of the pre-storedinformation of the multiple SIM cards, the detecting unit 50 can furtherdetermine that the target SIM card is a new card, and prompt informationthat the target SIM card is a new card can be output to a user operationinterface of the mobile phone such that users of the mobile phone canconsult and determine whether the detection result is accurate. Duringimplementation, if the detection result is accurate, the acquiring unit10 can acquire or determine all network types supported by the mobileterminal according to the type of the target SIM card, and can furtherestablish a network search list corresponding to the target SIM card.

During implementation, the acquiring unit 10 can determine network typessupported by a mobile phone SIM card (“mobile phone” for short)according to the information of the SIM card, and can establish acorresponding EHPLMN list based on the network types supported by themobile phone.

In some implementations, the network type described herein can include:CDMA 1×, 800 MHZ frequency band assigned for mobile terminals in CDMAnetwork standard; 900/1800/1900 MHZ frequency band assigned for mobileterminals in GSM network standard, and 900/1800 MHZ frequency bandassigned for GSM 1× dual-model (that is, WCDMA) in recent years;900/1800/1900/2100 MHz frequency band assigned for terminals in 3Gmobile communication technology network standard; and 1920-2170 MHZfrequency band assigned for terminals in 4G mobile communicationtechnology network standard; however, the present disclosure is notlimited thereto.

In some implementations, after the acquiring unit 10 determines allnetwork types supported by the SIM card of the mobile terminal, based onall the network types, the acquiring unit 10 can further acquire ordetermine network IDs of PLMNs of all the network types and add thenetwork IDs of PLMNs of all the network types to the EHPLMN list. Thatis, in implementations of the present disclosure, the acquiring unit 10can acquire or determine network IDs of PLMNs of multiple network typessupported by the mobile phone in advance, and the adding unit 20 can addthe network IDs of PLMNs of the multiple network types to the EHPLMNlist as well as save the EHPLMN list to a storage space. The EHPLMN listcan be used for network ID match when the mobile phone searches networksand the mobile phone can attempt to connect to a network after acorresponding network ID has been found; it is possible to reduce thelength of time consumed for network search and improve the efficiency ofnetwork connection.

In some implementations, the EHPLMN described herein is an equivalentPLMN of a PLMN currently selected by the mobile phone and has the samepriority. The EHPLMN is mainly used in conjunction with mobile phones tosolve “periodic network search of terminals, roaming signs appears, andfaster power consumption” and other issues caused by singlenetwork-dual-number or even single network-multi-number.

In some implementations, the network IDs of the PLMN described hereincan include network number segments. For example, China Mobile includesfour number segments, that is, 46000, 46002, 46007, and 46008; ChinaUnicom includes three number segments, that is, 46001, 46006, 46009 andthe like and there is no limit. Specifically, when the network typesupported by the mobile phone has been determined, the mobile phone canadd network IDs of the PLMN of the network type to the EHPLMN list. Forexample, if the SIM card of the mobile phone is a SIM card of ChinaMobile, it can be determined that the network supported by the mobilephone is a network of China Mobile, and therefore, network numbersegments of the network of China Mobile can be added to the EHPLMN list.

As illustrated in FIG. 5, in some implementations, the connecting unit30 further comprise a matching sub-unit 30-1, which is configured tomatch the network ID of the searched network with network IDs in theEHPLMN list, so as to find a target PLMN that matches at least onenetwork ID in the EHPLMN list; or configured to match the network ID ofthe searched network with network IDs in the EHPLMN list and the EPLMNlist simultaneously, so as to find the target PLMN that matches at leastone network ID in the EPLMN list or at least one network ID in theEHPLMN list.

In some implementations, the connecting unit 30 can further include anacquiring sub-unit 30-3 and a connecting sub-unit 30-5 as illustrated inFIG. 5. When a mobile phone arrives at a visited place from the home ofthe SIM card thereof or arrives at a new visited place from a visitedplace that has already established a network connection and starts anetwork search, the acquiring sub-unit 30-3 can acquire the network IDof a PLMN broadcasted by a base station. After the acquiring sub-unit30-3 obtains the network ID of the PLMN of the visited place via basestation broadcast, the matching sub-unit 30-1 can match the network IDof the PLMN obtained via scan with network IDs of PLMNs in the EHPLMNlist. When a PLMN (that is, the target PLMN) that matches at least onenetwork ID of the EHPLMN list is searched, the connecting sub-unit 30-5can establish a communication connection with the target PLMN. That is,the connecting unit 30 can first match, via the matching sub-unit 30-1,the network ID of the searched PLMN obtained by the acquiring sub-unit30-3 with network IDs pre-stored in the EHPLMN list, and establish anetwork connection after a successful match via the connecting sub-unit30-5, there is no need to attempt communication connection for thenetwork ID of each searched PLMN, and it is possible to reduce wastedeffort and improve the efficiency of network connection.

Further, when a mobile phone arrives at a visited place and starts anetwork search, the connecting unit 30 can match the network ID of thesearched network with network IDs in the EPLMN list and the EHPLMN listsimultaneously via the matching sub-unit 30-1, so as to find a targetPLMN that matches at least one network ID in the EPLMN list or theEHPLMN list. During implementation, since the way in which informationis stored in different lists (the EPLMN list and the EHPLMN list) may bedifferent and search strategies defined by different lists are not thesame, the search speed that the mobile phone to search, from differentlists (the EPLMN list and the EHPLMN list), a matched network ID of thenetwork ID of the searched PLMN varies depending on the network IDs ofPLMNs; for example, if the network ID that matches the network ID of thesearched PLMN is different in storage location, the match speed betweenthe network ID of the PLMN and network IDs in the lists may varies.According to the implementation of the present disclosure, bysimultaneously matching the network ID of the searched PLMN with theEHPLMN list and the EPLMN list respectively, it is possible to improvethe match efficiency of the network ID of the PLMN, shorten the matchtime of the network ID, and improve the efficiency of network search.

During implementation, the connecting unit 30 can match the network IDof the searched PLMN with the EHPLMN list and the EPLMN listrespectively and then obtain a network ID that matches the network ID ofthe PLMN via the matching sub-unit 30-1; after a target PLMN thatmatches at least one network ID stored in the EHPLMN list or the EPLMNlist is searched, the connecting unit 30 can establish a communicationconnection between the mobile phone and the target PLMN via theconnecting sub-unit 30-5 for example.

In some implementations, after the connecting unit 30 establishes thecommunication connection with the target PLMN, the calculating unit 40can calculate a total length of time consumed by the mobile phone tofind the target PLMN and establish the communication connection with thetarget PLMN, and further output the total length of time to a useroperation interface of the mobile terminal as a length of time forcurrent network access for consulting by users of the mobile phone. Theuser operation interface of the mobile phone can be a mobile phonedisplay such as a touch screen; however, the present disclosure is notlimited thereto. After viewing the length of time for network access viathe mobile phone display, users of the mobile phone can determinewhether to feed back the length of time for network access, the visitedplace, and other information to the operator management platform of theSIM card of the mobile phone. If the mobile phone chooses to feed backthe length of time for network access, the visited place, and otherinformation to the operator management platform of the SIM card of themobile phone via the calculating unit 40, optimal management of networkaccess time can be performed via the operator management platform of theSIM card of the mobile phone. Through optimization, the efficiency ofmobile access of the mobile phone can be improved continuously, and userexperience of the mobile phone can be enhanced.

According to implementations of the present disclosure, a mobile phonecan first determine whether a target user identification card insertedthereto is a new card, and if YES, the mobile phone can determinenetwork types supported by itself according to the target useridentification card and determine, based on the network types supportedby the target user identification card, network IDs of PLMNs of theabove-mentioned network types; thereafter, network IDs of PLMNs of theabove-mentioned network types can be added into an EHPLMN list and anEPLMN list so as to conduct network ID match according to the EHPLMNlist and the EPLMN list. Network connection can be performed after asuccessful match; since there is no need to attempt network connectionwith regard to each searched network, efficiency of network search canbe improved. When the mobile phone arrives at a visited place from adesignated location and starts a network search, the mobile phone canmatch the searched network ID with network IDs stored in the EHPLMN listand the EPLMN list. If a target PLMN that matches at least one networkID in the EHPLMN list or the EPLMN list is searched, a communicationconnection with the target PLMN is established; it is possible to reducethe length of time that the new user identification card of the mobilephone takes to connect to the PLMN and improve user communicationexperience of the mobile phone. According to implementations of thepresent disclosure, the length of time for network access can be fedback to an operator management platform of the SIM card of the mobilephone, and optimal management of network access time can be performedvia the operator management platform of the SIM card. Throughoptimization, the efficiency of mobile access of the mobile phone can beimproved continuously, and user experience of the mobile phone can beenhanced.

Modules or sub-modules in all implementations of the present disclosurecan be implemented by a general purpose integrated circuit such as a CPU(Central Processing Unit), or by an ASIC (Application SpecificIntegrated Circuit).

The steps in the method of the implementation of the present disclosurecan be sequentially adjusted, merged, and subtracted according to actualneeds.

The units in the terminal of the implementation of the presentdisclosure can be combined, divided, and deleted according to actualneeds.

It will be understood by those of ordinary skill in the art that,implementation of all or part of the processes in the method of theimplementations described above can be accomplished by a computerprogram to instruct the associated hardware; the computer program can bestored in a computer-readable storage medium and which, when executed,may include flows of respective methods of the implementations asdescribed above. The storage medium can be a magnetic disk, an opticaldisk, a read-only memory (ROM), a random access memory (RAM), or thelike.

The foregoing disclosed is merely exemplary implementations and it isnot intended to limit the scope of the present disclosure; equivalentschanges made on the basis of the claims of the present disclosure shallfall into the scope of the present disclosure.

What is claimed is:
 1. A method for network access, comprising:detecting information of a target user identification card inserted intoa mobile terminal to determine whether the target user identificationcard is a new card inserted into the mobile terminal for the first time;when the target user identification card is the new card, acquiringnetwork types supported by the target user identification card; based onthe network types supported by the target user identification card,acquiring network identities (IDs) of Public Land Mobile Networks(PLMNs) of the network types and adding the network IDs of the PLMNs ofthe network types to an equivalent home public land mobile network(EHPLMN) list; and when a target PLMN matching at least one network IDin the EHPLMN list is found during a network search, establishing acommunication connection between the mobile terminal and the targetPLMN.
 2. The method of claim 1, further comprising: determining whetherthe target user identification card is included in at least one useridentification card pre-stored by the mobile terminal to determinewhether the target user identification card is the new card.
 3. Themethod of claim 2, wherein determining whether the target useridentification card is included in at least one user identification cardpre-stored by the mobile terminal comprises: acquiring information ofthe at least one user identification card pre-stored by the mobileterminal from a storage space; and determining that the target useridentification card is included in the at least one user identificationcard pre-stored by the mobile terminal when the information of thetarget user identification card belongs to the information of the atleast one user identification card pre-stored.
 4. The method of claim 1,further comprising: outputting prompt information that the target useridentification card is the new card to a user operation interface of themobile terminal.
 5. The method of claim 1, further comprising: afteradding the network IDs of the PLMNs of the network types to the EHPLMNlist, adding the network IDs of the PLMNs of the network types to anequivalent public land mobile network (EPLMN) list for network search ofthe mobile terminal.
 6. The method of claim 5, wherein when the mobileterminal starts the network search, the method further comprises one of:matching the network ID of a searched network with network IDs in theEHPLMN list to find a target PLMN that matches at least one network IDin the EHPLMN list; and matching the network ID of the searched networkwith network IDs in the EPLMN list and the EHPLMN list simultaneously tofind the target PLMN that matches at least one network ID in the EPLMNlist or at least one network ID in the EHPLMN list.
 7. The method ofclaim 1, further comprising: after establishing the communicationconnection between the mobile terminal and the target PLMN, calculatinga total length of time consumed by the mobile terminal to find thetarget PLMN and establish the communication connection with the targetPLMN; and outputting the total length of time to a user operationinterface of the mobile terminal as a length of time for network access,wherein the length of time for network access is consulted by users ofthe mobile terminal.
 8. The method of claim 7, further comprising: afteroutputting the total length of time to the user operation interface ofthe mobile terminal as the length of time for network access, feedingback to an operator management platform the length of time for networkaccess and a visited place connected, wherein the operator managementplatform optimizes the length of time for network access.
 9. A mobileterminal, comprising a hardware processor configured to perform: adetecting unit, configured to detect information of a target useridentification card inserted into the mobile terminal to determinewhether the target user identification card is a new card inserted intothe mobile terminal for the first time; an acquiring unit, configured toacquire network types supported by the target user identification cardbased on a type of the target user identification card when the targetuser identification card is the new card; and acquire, based on thenetwork types supported by the target user identification card, networkidentities (IDs) of Public Land Mobile Networks (PLMN) of the networktypes; an adding unit, configured to add the network IDs of the PLMNs ofthe network types to an equivalent home public land mobile network(EHPLMN) list; and a connecting unit, configured to establish acommunication connection between the mobile terminal and a target PLMNthat matches at least one network ID in the EHPLMN list when the targetPLMN is found during a network search.
 10. The mobile terminal of claim9, wherein the detecting unit is configured to determine whether thetarget user identification card is included in at least one useridentification card pre-stored by the mobile terminal.
 11. The mobileterminal of claim 10, wherein the detecting unit is further configuredto: acquire information of the at least one user identification cardpre-stored by the mobile terminal from a storage space; and determinethat the target user identification card is included in the at least oneuser identification card pre-stored by the mobile terminal when theinformation of the target user identification card belongs to theinformation of the at least one user identification card pre-stored. 12.The mobile terminal of claim 9, wherein the detecting unit is furtherconfigured to: output prompt information that the target useridentification card is the new card to a user operation interface of themobile terminal.
 13. The mobile terminal of claim 9, wherein the addingunit is further configured to: add the network IDs of the PLMNs of thenetwork types to an equivalent public land mobile network (EPLMN) listfor network search of the mobile terminal.
 14. The mobile terminal ofclaim 13, wherein the connecting unit further comprises a matchingsub-unit configured to one of: match the network ID of a searchednetwork with network IDs in the EHPLMN list to find a target PLMN thatmatches at least one network ID in the EHPLMN list; and match thenetwork ID of the searched network with network IDs in the EPLMN listand the EHPLMN list simultaneously to find the target PLMN that matchesat least one network ID in the EPLMN list or at least one network ID inthe EHPLMN list.
 15. The mobile terminal of claim 9, wherein thehardware processor is further configured to perform a calculating unitin the mobile terminal; and the calculating unit is configured tocalculate a total length of time consumed by the mobile terminal to findthe target PLMN and establish the communication connection with thetarget PLMN, and output the total length of time to a user operationinterface of the mobile terminal as a length of time for network access,wherein the length of time for network access is consulted by users ofthe mobile terminal.
 16. The mobile terminal of claim 15, wherein thecalculating unit is further configured to: feed back to an operatormanagement platform the length of time for network access and a visitedplace connected, wherein the operator management platform optimizes thelength of time for network access.
 17. A method for network access,comprising: matching a network identity (ID) of a target Public LandMobile Network (PLMN) found during a network search with network IDs inat least one predetermined list; and when the network ID of the targetPLMN matches at least one network ID in the at least one predeterminedlist, establishing a communication connection between a mobile terminaland the target PLMN.
 18. The method of claim 17, wherein the at leastone predetermined list comprises at least one of an equivalent homepublic land mobile network (EHPLMN) list and an equivalent public landmobile network (EPLMN) list.
 19. The method of claim 18, furthercomprising: before matching the network ID of a target PLMN found duringthe network search with the network IDs in the at least onepredetermined list, detecting information of a target useridentification card inserted into a mobile terminal to determine whetherthe target user identification card is a new card inserted into themobile terminal for the first time; when the target user identificationcard is the new card, acquiring network types supported by the targetuser identification card; and based on the network types supported bythe target user identification card, acquiring network IDs of PLMNs ofthe network types and adding the network IDs of the PLMNs of the networktypes to at least one of the EHPLMN list and the EPLMN list.
 20. Themethod of claim 19, further comprising: after detecting the informationof the target user identification card inserted into the mobileterminal, acquiring information of at least one user identification cardpre-stored by the mobile terminal from a storage space; and determiningthat the target user identification card is included in the at least oneuser identification card pre-stored by the mobile terminal and is thenew card when the information of the target user identification cardbelongs to the information of the at least one user identification cardpre-stored.